Available with Standard or Advanced license.
Install and configure IBM DB2 and an ArcGIS client and use the Enable Enterprise Geodatabase geoprocessing tool or a Python script to a create geodatabase in a DB2 database.
This topic covers creating a geodatabase in DB2 on Linux, UNIX, or Windows servers. For instructions on creating a geodatabase in DB2 on the z operating system (z/OS), see Create a geodatabase in DB2 z/OS.
Install and configure DB2
Before you can run the Enable Enterprise Geodatabase tool or script to create a geodatabase in DB2, you must first install and configure the DB2 database management system. Check the ArcGIS system requirements for DB2 before you set up a geodatabase to be sure the database, ArcGIS, and hardware combinations you want to use are supported.
You should follow the instructions provided by IBM to install and configure your DB2 instance. Then follow these steps to configure a database and login to use for your geodatabase.
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Create an operating system login named sde on the DB2 server.
You will connect to the database with the sde login to create a geodatabase.
- Create a DB2 database and register it with the Spatial Extender module.
- Grant the sde user DBADM authority in the database.
Next, set up an ArcGIS client from which you will connect and create a geodatabase in the DB2 database.
Configure clients
You can run a Python script from ArcGIS Desktop (Desktop Standard or Desktop Advanced), ArcGIS Engine Geodatabase Update, or ArcGIS Server (enterprise edition) to create a geodatabase. If you want to run the Enable Enterprise Geodatabase geoprocessing tool instead of a script, use ArcGIS Desktop.
- Install the ArcGIS client you want to use for geodatabase creation.
Follow the instructions provided in the software installation guides.
- In most cases, your ArcGIS client will be installed on a different computer than the DB2 server; therefore, install and configure a DB2 client on the ArcGIS client computer.
The IBM Data Server Runtime Client for DB2 can be downloaded from My Esri, or you can use your own installation of the DB2 client. See the DB2 documentation for instructions to install. If you are installing the DB2 client on a 64-bit operating system, run the 64-bit executable; it installs both 32- and 64-bit files, allowing you to connect from both 32- and 64-bit ArcGIS clients.
- You can connect from ArcGIS to a DB2 database using a DSNless connection string. However, if you want to use a data source name to connect instead, you must catalog the database, thereby configuring the data source name. See the IBM DB2 documentation for instructions on creating a data source name.
Now you can create a geodatabase.
Create a geodatabase
Use one of the following methods to create a geodatabase in your DB2 database:
Use the Enable Enterprise Geodatabase tool
If you installed and configured ArcGIS Desktop to connect to your DB2 database, you can run the Enable Enterprise Geodatabase tool.
Follow these steps to create a geodatabase from ArcMap:
- Start ArcMap or ArcCatalog.
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Connect to the DB2 database. Connect with the sde login.
Be sure to save the sde user's password on the Database Connection dialog box.
- Right-click the database connection and click Enable Geodatabase.
The Enable Enterprise Geodatabase tool opens.
- Add the database connection file for your DB2 database to the Input Database text box.
- Browse to the ArcGIS Server keycodes file that was created when you authorized ArcGIS Server and add it to the Authorization File text box.
When you use the wizard to authorize ArcGIS Server, a keycodes file is written to the machine where the software is installed. If you authorized ArcGIS Server on a Linux box, the file was created in /arcgis/server/framework/runtime/.wine/drive_c/Program Files/ESRI/License<release>/sysgen. If you authorized on a Windows server, the file was created in Program Files\ESRI\License<release>\sysgen. Copy this file to a location you can access from the Enable Enterprise Geodatabase tool. If you have not already done so, authorize ArcGIS Server to create this file.
- Click OK to run the tool.
You can find messages related to geodatabase creation in the sde_setup.log file, which is created in the directory specified for your %TEMP% variable on the computer where the tool is run. If you have problems creating a geodatabase, check this file to troubleshoot the problem.
A geodatabase is created in your DB2 database.
Next, create users to load data into the geodatabase. See the IBM DB2 Information Center for instructions on creating users.
Use a Python script
You can run a Python script from an ArcGIS Desktop (Desktop Standard or Desktop Advanced), ArcGIS Server (enterprise edition), or ArcGIS Engine Geodatabase Update client machine to create a geodatabase in a DB2 database.
Follow these steps to run a Python script for geodatabase creation in a DB2 database:
- Create a text file on the ArcGIS client machine and copy the following script into the file.
""" Name: enable_enterprise_gdb.py Description: Provide connection information to an enterprise database and enable enterprise geodatabase. Type enable_enterprise_gdb.py -h or enable_enterprise_gdb.py --help for usage """ # Import system modules import arcpy, os, optparse, sys # Define usage and version parser = optparse.OptionParser(usage = "usage: %prog [Options]", version="%prog 1.0 for " + arcpy.GetInstallInfo()['Version'] ) #Define help and options parser.add_option ("--DBMS", dest="Database_type", type="choice", choices=['SQLSERVER', 'ORACLE', 'POSTGRESQL', 'DB2','INFORMIX','DB2ZOS', ''], default="", help="Type of enterprise DBMS: SQLSERVER, ORACLE, POSTGRESQL, DB2, INFORMIX, or DB2ZOS.") parser.add_option ("-i", dest="Instance", type="string", default="", help="DBMS instance name") parser.add_option ("--auth", dest="account_authentication", type ="choice", choices=['DATABASE_AUTH', 'OPERATING_SYSTEM_AUTH'], default='DATABASE_AUTH', help="Authentication type options (case-sensitive): DATABASE_AUTH, OPERATING_SYSTEM_AUTH. Default=DATABASE_AUTH") parser.add_option ("-u", dest="User", type="string", default="", help="Geodatabase administrator user name") parser.add_option ("-p", dest="Password", type="string", default="", help="Geodatabase administrator password") parser.add_option ("-D", dest="Database", type="string", default="none", help="Database name: Not required for Oracle") parser.add_option ("-l", dest="Authorization_file", type="string", default="", help="Full path and name of authorization file") # Check if value entered for option try: (options, args) = parser.parse_args() #Check if no system arguments (options) entered if len(sys.argv) == 1: print "%s: error: %s\n" % (sys.argv[0], "No command options given") parser.print_help() sys.exit(3) #Usage parameters for spatial database connection database_type = options.Database_type.upper() instance = options.Instance account_authentication = options.account_authentication.upper() username = options.User.lower() password = options.Password database = options.Database.lower() license = options.Authorization_file if( database_type ==""): print " \n%s: error: \n%s\n" % (sys.argv[0], "DBMS type (--DBMS) must be specified.") parser.print_help() sys.exit(3) if (license == ""): print " \n%s: error: \n%s\n" % (sys.argv[0], "Authorization file (-l) must be specified.") parser.print_help() sys.exit(3) if (database_type == "SQLSERVER"): database_type = "SQL_SERVER" # Get the current product license product_license=arcpy.ProductInfo() if (license == ""): print " \n%s: error: %s\n" % (sys.argv[0], "Authorization file (-l) must be specified.") parser.print_help() sys.exit(3) # Checks required license level if product_license.upper() == "ARCVIEW" or product_license.upper() == 'ENGINE': print "\n" + product_license + " license found!" + " Enabling enterprise geodatabase functionality requires an ArcGIS Desktop Standard or Advanced, ArcGIS Engine with the Geodatabase Update extension, or ArcGIS Server license." sys.exit("Re-authorize ArcGIS before enabling an enterprise geodatabase.") else: print "\n" + product_license + " license available! Continuing to enable..." arcpy.AddMessage("+++++++++") # Local variables instance_temp = instance.replace("\\","_") instance_temp = instance_temp.replace("/","_") instance_temp = instance_temp.replace(":","_") Conn_File_NameT = instance_temp + "_" + database + "_" + username if os.environ.get("TEMP") == None: temp = "c:\\temp" else: temp = os.environ.get("TEMP") if os.environ.get("TMP") == None: temp = "/usr/tmp" else: temp = os.environ.get("TMP") Connection_File_Name = Conn_File_NameT + ".sde" Connection_File_Name_full_path = temp + os.sep + Conn_File_NameT + ".sde" # Check for the .sde file and delete it if present arcpy.env.overwriteOutput=True if os.path.exists(Connection_File_Name_full_path): os.remove(Connection_File_Name_full_path) print "\nCreating Database Connection File...\n" # Process: Create Database Connection File... # Usage: out_file_location, out_file_name, DBMS_TYPE, instnace, database, account_authentication, username, password, save_username_password(must be true) arcpy.CreateDatabaseConnection_management(out_folder_path=temp, out_name=Connection_File_Name, database_platform=database_type, instance=instance, database=database, account_authentication=account_authentication, username=username, password=password, save_user_pass="TRUE") for i in range(arcpy.GetMessageCount()): if "000565" in arcpy.GetMessage(i): #Check if database connection was successful arcpy.AddReturnMessage(i) arcpy.AddMessage("\n+++++++++") arcpy.AddMessage("Exiting!!") arcpy.AddMessage("+++++++++\n") sys.exit(3) else: arcpy.AddReturnMessage(i) arcpy.AddMessage("+++++++++\n") # Process: Enable geodatabase... try: print "Enabling Enterprise Geodatabase...\n" arcpy.EnableEnterpriseGeodatabase_management(input_database=Connection_File_Name_full_path, authorization_file=license) for i in range(arcpy.GetMessageCount()): arcpy.AddReturnMessage(i) arcpy.AddMessage("+++++++++\n") except: for i in range(arcpy.GetMessageCount()): arcpy.AddReturnMessage(i) if os.path.exists(Connection_File_Name_full_path): os.remove(Connection_File_Name_full_path) #Check if no value entered for option except SystemExit as e: if e.code == 2: parser.usage = "" print "\n" parser.print_help() parser.exit(2)
- Save the file with a .py extension.
- Run the script, providing options and information specific to your site.
In the following example run from a Windows machine, the file enable_gdb.py is run for database spdata on instance db2prod. The connection is made as the sde login with password Tgdbst@rtsh3r3. A keycodes file in the default ArcGIS Server location is specified to authorize the geodatabase.
enable_gdb.py --DBMS DB2 -i db2prod --auth DATABASE_AUTH -u sde -p Tgdbst@rtsh3r3 -D spdata -l \\Program Files\ESRI\License10.5\sysgen\keycodes
This is an example of running the script on a Linux machine:
/enable_gdb.py --DBMS DB2 -i db2prod --auth DATABASE_AUTH -u sde -p Tgdbst@rtsh3r3 -D spdata -l /usr/arcgis/server/framework/runtime/.wine/drive_c/Program Files/ESRI/License10.5/sysgen/keycodes
You can find messages related to geodatabase creation in the sde_setup.log file, which is created in the directory specified for your TEMP or TMP variable on the computer where the Python script is run. If you have any problems creating a geodatabase, check this file to troubleshoot the problem.
A geodatabase is created in your DB2 database.
Next, create users to load data into the geodatabase. See the IBM DB2 Information Center for instructions on creating users and granting privileges to load data.